bool assemblegfflist(XMLFile &xml, GFFFile &gff, uint32 n, std::string *llbl) { int pr; while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(rsubstr(xml.section, 11) == ".list.label") if(llbl) *llbl = xml.value; break; case 1: if(rsubstr(xml.section, 7) == ".struct") { uint32 nsct; if(gff.writeListStruct(nsct, n)) return printxmlerr(xml, gff.getStrError()); if(!assemblegffstruct(xml, gff, nsct, NULL)) return false; } else printxmlerr(xml, "Element invalid in list"); break; case 2: if(rsubstr(xml.value, 5) == ".list") return true; break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); printxmlerr(xml, "Unexpected end of file"); return false; }
bool assemblegffexolocstr(XMLFile &xml, GFFFile &gff, uint32 n) { int pr, lang=0; std::string lbl; ExoLocString exo; uint64 tmp; while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(rsubstr(xml.section, 6) == ".label") lbl = xml.value; if(rsubstr(xml.section, 7) == ".strref") { sscanf(xml.value.c_str(), S_UINT64, &tmp); exo.stringref = (uint32) tmp; } if(rsubstr(xml.section, 16) == ".substr.language") { if((lang = getpos(langs, LANGS, xml.value)) == -1) return printxmlerr(xml, "Invalid language"); } if(rsubstr(xml.section, 7) == ".substr") exo.str[lang] = unquotestr(xml.value); break; case 1: if(rsubstr(xml.section, 7) != ".substr") return printxmlerr(xml, "Invalid tag"); break; case 2: if(rsubstr(xml.value, 10) == ".exolocstr") { if(gff.writeExoLocString(n, lbl, exo)) return printxmlerr(xml, gff.getStrError()); return true; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); printxmlerr(xml, "Unexpected end of file"); return false; }
bool assembleerfdesc(XMLFile &xml, ERFFile &erf) { int pr, lang=0; ExoLocString exo; uint64 tmp; while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(rsubstr(xml.section, 7) == ".strref") { sscanf(xml.value.c_str(), S_UINT64, &tmp); exo.stringref = (uint32) tmp; } if(rsubstr(xml.section, 16) == ".substr.language") { if((lang = getpos(langs, LANGS, xml.value)) == -1) return printxmlerr(xml, "Invalid language"); } if(rsubstr(xml.section, 7) == ".substr") exo.str[lang] = unquotestr(xml.value); break; case 1: if(rsubstr(xml.section, 7) != ".substr") return printxmlerr(xml, "Invalid tag"); break; case 2: if(rsubstr(xml.value, 12) == ".description") { erf.desc = exo; return true; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); printxmlerr(xml, "Unexpected end of file"); return false; }
bool assembletlk(char *fname, uint8 **mem, uint32 *size) { int pr; uint32 flags=0; uint64 tmp; float32 sndlength=0; std::string sndresref, str; XMLFile xml; TLKFile tlk; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(!mem && (xml.section == ".tlk.filename")) tlk.filename = xml.value; else if(xml.section == ".tlk.filetype") { if((tlk.type = tlk.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!tlk.typeIsCorrect()) return printxmlerr(xml, "No TLK type"); } else if(xml.section == ".tlk.language") { if((tlk.language = (NWNLang) getpos(langs, LANGS, xml.value)) == -1) return printxmlerr(xml, "Invalid language"); } else if(xml.section == ".tlk.std::string.sndresref") sndresref = xml.value; else if(xml.section == ".tlk.std::string.flags") { sscanf(xml.value.c_str(), S_UINT64, &tmp); flags = (uint32) tmp; } else if(xml.section == ".tlk.std::string.sndlength") sscanf(xml.value.c_str(), S_FLOAT32, &sndlength); else if(xml.section == ".tlk.std::string") str = xml.value; break; case 1: if((xml.section != ".?xml") && (xml.section != ".tlk") && (getpos(validtlktags, TLKTAGS, xml.section) == -1)) return printxmlerr(xml, "Invalid tag"); break; case 2: if(xml.value == ".tlk.std::string") { if(tlk.add(flags, sndresref, sndlength, unquotestr(str))) return printxmlerr(xml, tlk.getStrError()); sndlength = flags = 0; str.clear(); sndresref.clear(); } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(!mem) { if(tlk.filename.empty()) return printxmlerr(xml, "Missing filename"); else if(tlk.write(tlk.filename)) return printnwnerr(tlk); } else if(tlk.write(mem, size)) return printnwnerr(tlk); return true; }
bool assemblekeybif(char *fname, uint8 **mem, uint32 *size) { int pr; std::string bfname, rfname, resref; std::vector<uint8 *> datas; uint16 drives=0; uint32 asize; uint64 tmp; NWNFileType restype=NWN_FILE_UNDEFINED; bool newbif=true, withCd=false, exploded=false; XMLFile xml; KEYFile key; BIFFile bif; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(!mem && (xml.section == ".key.filename")) key.filename = xml.value; else if(xml.section == ".key.filetype") { if((key.type = key.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!key.typeIsCorrect()) return printxmlerr(xml, "No KEY type"); } else if(xml.section == ".key.buildyear") { sscanf(xml.value.c_str(), S_UINT64, &tmp); key.buildyear = (uint32) (tmp - 1900); } else if(xml.section == ".key.buildday") { sscanf(xml.value.c_str(), S_UINT64, &tmp); key.buildday = (uint32) tmp; } else if(xml.section == ".key.bif.filename") bfname = xml.value; else if(xml.section == ".key.bif.drives") { sscanf(xml.value.c_str(), S_UINT64, &tmp); drives = (uint16) tmp; } else if(xml.section == ".key.bif.variable.resource.resref") resref = xml.value; else if(xml.section == ".key.bif.variable.resource.filename") rfname = xml.value; else if(xml.section == ".key.bif.variable.resource.restype") { if((restype = key.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); } else if(xml.section == ".key.bif.variable.resource.withCd") { sscanf(xml.value.c_str(), S_UINT64, &tmp); withCd = (bool) tmp; } else if(xml.section == ".key.bif.variable.resource.exploded") { sscanf(xml.value.c_str(), S_UINT64, &tmp); exploded = (bool) tmp; } break; case 1: if(xml.section == ".bif.fixed") return printxmlerr(xml, "Fixed resources aren't supported"); else if((xml.section != ".?xml") && (xml.section != ".key") && (getpos(validkeybiftags, KEYBIFTAGS, xml.section) == -1)) return printxmlerr(xml, "Invalid tag"); break; case 2: if(xml.value == ".key.bif") { bfname = bif.filename; if(bif.endwrite()) return printxmlerr(xml, bif.getStrError()); if(bif.open(bfname)) return printxmlerr(xml, bif.getStrError()); key.fsizes[key.bifcount-1] = bif.getFileSize(); bif.deInit(); newbif = true; bfname.clear(); drives = 0; } else if(xml.value == ".key.bif.variable.resource") { if(newbif) { if(bfname.empty()) return printxmlerr(xml, "Missing filename"); if(key.addBif(bfname, drives, 0)) return printxmlerr(xml, key.getStrError()); if(bif.beginWrite(getbasename((char*)bfname.c_str()))) return printxmlerr(xml, bif.getStrError()); bif.type = NWN_FILE_BIF; newbif = false; } if(resref.empty()) return printxmlerr(xml, "Missing resref"); if(rfname.empty()) return printxmlerr(xml, "Missing filename"); if(restype == NWN_FILE_UNDEFINED) return printxmlerr(xml, "Missing restype"); if(exploded) { datas.resize((tmp=datas.size())+1); if(!(datas[tmp] = expd(xml, bif.getBaseType(restype), rfname, asize))) return false; if(bif.writeData(restype, withCd, true, datas[tmp], asize, false)) return printxmlerr(xml, bif.getStrError()); } else if(bif.writeData(restype, withCd, true, rfname)) return printxmlerr(xml, bif.getStrError()); if(key.addResource(key.bifcount-1, resref, restype, bif.vrescount-1)) return printxmlerr(xml, key.getStrError()); resref.clear(); rfname.clear(); restype = NWN_FILE_UNDEFINED; withCd = exploded = false; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(!mem) { if(key.filename.empty()) return printxmlerr(xml, "Missing filename"); else if(key.write(key.filename)) return printnwnerr(key); } else if(key.write(mem, size)) return printnwnerr(key); for(uint32 i=0;i<datas.size();i++) free(datas[i]); return true; }
bool assemblegff(char *fname, uint8 **mem, uint32 *size) { int pr; uint32 n=0; XMLFile xml; GFFFile gff; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { // std::cout << pr << ": " << xml.section << " = \"" << xml.value << "\"\n"; case 0: if(!mem && (xml.section == ".gff.filename")) { if(gff.beginWrite(xml.value)) return printxmlerr(xml, gff.getStrError()); } else if(xml.section == ".gff.filetype") { if((gff.type = gff.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!gff.typeIsCorrect()) return printxmlerr(xml, "No GFF type"); } break; case 1: if(xml.section == ".gff.struct") { if(n) return printxmlerr(xml, "Must have exactly one top level struct"); if(!mem) { if(gff.filename.empty()) return printxmlerr(xml, "Missing filename"); } else { if(gff.beginWrite()) return printxmlerr(xml, gff.getStrError()); } if(gff.writeStruct(n, "", 0)) return printxmlerr(xml, gff.getStrError()); if(!assemblegffstruct(xml, gff, n++, NULL)) return false; } else if((xml.section != ".?xml") && (xml.section != ".gff")) { if(getpos(validgfftags, GFFTAGS, xml.section) == -1) return printxmlerr(xml, "Invalid tag"); else return printxmlerr(xml, "Element outside the top level struct"); } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(gff.endwrite(mem, size)) return printxmlerr(xml, gff.getStrError()); return true; }
bool assemblessf(char *fname, uint8 **mem, uint32 *size) { int pr; uint32 stringref=0xFFFFFFFF; uint64 tmp; std::string resref; XMLFile xml; SSFFile ssf; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(!mem && (xml.section == ".ssf.filename")) ssf.filename = xml.value; else if(xml.section == ".ssf.filetype") { if((ssf.type = ssf.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!ssf.typeIsCorrect()) return printxmlerr(xml, "No SSF type"); } else if(xml.section == ".ssf.sound.resref") resref = xml.value; else if(xml.section == ".ssf.sound.stringref") { sscanf(xml.value.c_str(), S_UINT64, &tmp); stringref = (uint32) tmp; } break; case 1: if((xml.section != ".?xml") && (xml.section != ".ssf") && (getpos(validssftags, SSFTAGS, xml.section) == -1)) return printxmlerr(xml, "Invalid tag"); break; case 2: if(xml.value == ".ssf.sound") { if(ssf.add(resref, stringref)) return printxmlerr(xml, ssf.getStrError()); resref.clear(); stringref = 0xFFFFFFFF; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(!mem) { if(ssf.filename.empty()) return printxmlerr(xml, "Missing filename"); else if(ssf.write(ssf.filename)) return printnwnerr(ssf); } else if(ssf.write(mem, size)) return printnwnerr(ssf); return true; }
bool assemblebif(char *fname, uint8 **mem, uint32 *size) { int pr; uint32 asize; uint64 tmp; std::vector<uint8 *> datas; std::string filename; bool opened=false, exploded=false, withCd=false; NWNFileType restype=NWN_FILE_UNDEFINED; XMLFile xml; BIFFile bif; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(!mem && (xml.section == ".bif.filename")) { if(bif.beginWrite(xml.value)) return printxmlerr(xml, bif.getStrError()); } else if(xml.section == ".bif.filetype") { if((bif.type = bif.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!bif.typeIsCorrect()) return printxmlerr(xml, "No BIF type"); } else if(xml.section == ".bif.variable.resource.filename") filename = xml.value; else if(xml.section == ".bif.variable.resource.restype") { if((restype = bif.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); } else if(xml.section == ".bif.variable.resource.exploded") { sscanf(xml.value.c_str(), S_UINT64, &tmp); exploded = (bool) tmp; } else if(xml.section == ".bif.variable.resource.withCd") { sscanf(xml.value.c_str(), S_UINT64, &tmp); withCd = (bool) tmp; } break; case 1: if(xml.section == ".bif.fixed") return printxmlerr(xml, "Fixed resources aren't supported"); else if((xml.section != ".?xml") && (xml.section != ".bif") && (getpos(validbiftags, BIFTAGS, xml.section) == -1)) return printxmlerr(xml, "Invalid tag"); break; case 2: if(xml.value == ".bif.variable.resource") { if(!opened) { if(!mem) { if(bif.filename.empty()) return printxmlerr(xml, "Missing filename"); } else if(bif.beginWrite()) return printxmlerr(xml, bif.getStrError()); opened = true; } if(filename.empty()) return printxmlerr(xml, "Missing filename"); if(restype == NWN_FILE_UNDEFINED) return printxmlerr(xml, "Missing restype"); if(exploded) { datas.resize((tmp=datas.size())+1); if(!(datas[tmp] = expd(xml, bif.getBaseType(restype), filename, asize))) return false; if(bif.writeData(restype, withCd, true, datas[tmp], asize, false)) return printxmlerr(xml, bif.getStrError()); } else if(bif.writeData(restype, withCd, true, filename)) return printxmlerr(xml, bif.getStrError()); filename.clear(); exploded = withCd = false; restype=NWN_FILE_UNDEFINED; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(bif.endwrite(mem, size)) return printxmlerr(xml, bif.getStrError()); for(uint32 i=0;i<datas.size();i++) free(datas[i]); return true; }
bool assemblekey(char *fname, uint8 **mem, uint32 *size) { int pr; std::string filename, resref; uint16 drives=0; uint32 filesize=0, index=0xFFFFFFFF; uint64 tmp; NWNFileType restype=NWN_FILE_UNDEFINED; bool newbif=true; XMLFile xml; KEYFile key; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(!mem && (xml.section == ".key.filename")) key.filename = xml.value; else if(xml.section == ".key.filetype") { if((key.type = key.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!key.typeIsCorrect()) return printxmlerr(xml, "No KEY type"); } else if(xml.section == ".key.buildyear") { sscanf(xml.value.c_str(), S_UINT64, &tmp); key.buildyear = (uint32) (tmp - 1900); } else if(xml.section == ".key.buildday") { sscanf(xml.value.c_str(), S_UINT64, &tmp); key.buildday = (uint32) tmp; } else if(xml.section == ".key.bif.filename") filename = xml.value; else if(xml.section == ".key.bif.filesize") { sscanf(xml.value.c_str(), S_UINT64, &tmp); filesize = (uint32) tmp; } else if(xml.section == ".key.bif.drives") { sscanf(xml.value.c_str(), S_UINT64, &tmp); drives = (uint16) tmp; } else if(xml.section == ".key.bif.resource.resref") resref = xml.value; else if(xml.section == ".key.bif.resource.index") { sscanf(xml.value.c_str(), S_UINT64, &tmp); index = (uint32) tmp; } else if(xml.section == ".key.bif.resource.restype") { if((restype = key.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); } break; case 1: if((xml.section != ".?xml") && (xml.section != ".key") && (getpos(validkeytags, KEYTAGS, xml.section) == -1)) return printxmlerr(xml, "Invalid tag"); break; case 2: if(xml.value == ".key.bif") { newbif = true; filesize = drives = 0; filename.clear(); } else if(xml.value == ".key.bif.resource") { if(newbif) { if(filename.empty()) return printxmlerr(xml, "Missing filename"); if(key.addBif(filename, drives, filesize)) return printxmlerr(xml, key.getStrError()); newbif = false; } if(resref.empty()) return printxmlerr(xml, "Missing resref"); if(restype == NWN_FILE_UNDEFINED) return printxmlerr(xml, "Missing restype"); if(index == 0xFFFFFFFF) printxmlerr(xml, "Missing index"); if(key.addResource(key.bifcount-1, resref, restype, index)) return printxmlerr(xml, key.getStrError()); resref.clear(); restype = NWN_FILE_UNDEFINED; index = 0xFFFFFFFF; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(!mem) { if(key.filename.empty()) return printxmlerr(xml, "Missing filename"); else if(key.write(key.filename)) return printnwnerr(key); } else if(key.write(mem, size)) return printnwnerr(key); return true; }
bool assembleerf(char *fname, uint8 **mem, uint32 *size) { int pr; uint32 asize; uint64 tmp; std::vector<uint8 *> datas; bool opened=false, exploded=false; std::string resref, filename; NWNFileType restype=NWN_FILE_UNDEFINED; XMLFile xml; ERFFile erf; if(xml.open(fname)) { std::cerr << "Error opening file \"" << fname << "\": "; std::cerr << xml.getStrError() << "\n"; return false; } while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(!mem && (xml.section == ".erf.filename")) { if(erf.beginWrite(xml.value)) return printxmlerr(xml, erf.getStrError()); } else if(xml.section == ".erf.filetype") { if((erf.type = erf.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); if(!erf.typeIsCorrect()) return printxmlerr(xml, "No ERF type"); } else if(xml.section == ".erf.buildyear") { sscanf(xml.value.c_str(), S_UINT64, &tmp); erf.buildyear = (uint32) (tmp - 1900); } else if(xml.section == ".erf.buildday") { sscanf(xml.value.c_str(), S_UINT64, &tmp); erf.buildday = (uint32) tmp; } else if(xml.section == ".erf.resource.resref") resref = xml.value; else if(xml.section == ".erf.resource.filename") filename = xml.value; else if(xml.section == ".erf.resource.restype") { if((restype = erf.getFileResTypeByExt(xml.value)) == -1) return printxmlerr(xml, "Unknown filetype"); } else if(xml.section == ".erf.resource.exploded") { sscanf(xml.value.c_str(), S_UINT64, &tmp); exploded = (bool) tmp; } break; case 1: if(xml.section == ".erf.description") { if(!assembleerfdesc(xml, erf)) return false; } else if((xml.section != ".?xml") && (xml.section != ".erf") && (getpos(validerftags, ERFTAGS, xml.section) == -1)) return printxmlerr(xml, "Invalid tag"); break; case 2: if(xml.value == ".erf.resource") { if(!opened) { if(!mem) { if(erf.filename.empty()) return printxmlerr(xml, "Missing filename"); } else if(erf.beginWrite()) return printxmlerr(xml, erf.getStrError()); opened = true; } if(resref.empty()) return printxmlerr(xml, "Missing resref"); if(filename.empty()) return printxmlerr(xml, "Missing filename"); if(restype == NWN_FILE_UNDEFINED) return printxmlerr(xml, "Missing restype"); if(exploded) { datas.resize((tmp=datas.size())+1); if(!(datas[tmp] = expd(xml, erf.getBaseType(restype), filename, asize))) return false; if(erf.writeData(resref, restype, datas[tmp], asize, false)) return printxmlerr(xml, erf.getStrError()); } else if(erf.writeData(resref, restype, filename)) return printxmlerr(xml, erf.getStrError()); resref.clear(); filename.clear(); exploded = false; restype=NWN_FILE_UNDEFINED; } break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); xml.close(); if(erf.endwrite(mem, size)) return printxmlerr(xml, erf.getStrError()); for(uint32 i=0;i<datas.size();i++) free(datas[i]); return true; }
bool assemblegffstruct(XMLFile &xml, GFFFile &gff, uint32 n, std::string *slbl) { int pr, i; std::string sl, lbl, valstr; uint64 value=0, id=0; while((pr = xml.parse()) >= 0) { switch(pr) { case 0: if(rsubstr(xml.section, 13) == ".struct.label") { if(slbl) *slbl = xml.value; } else if(rsubstr(xml.section, 3) == ".id") { sscanf(xml.value.c_str(), S_UINT64, &id); if(gff.writeSetId(n, (uint32) id)) return printxmlerr(xml, gff.getStrError()); } else if(rsubstr(xml.section, 6) == ".label") lbl = xml.value; else if(rsubstr(xml.section, 12) == ".uint8.value") sscanf(xml.value.c_str(), S_UINT64, &value); else if(rsubstr(xml.section, 11) == ".int8.value") sscanf(xml.value.c_str(), S_INT64, &value); else if(rsubstr(xml.section, 13) == ".uint16.value") sscanf(xml.value.c_str(), S_UINT64, &value); else if(rsubstr(xml.section, 12) == ".int16.value") sscanf(xml.value.c_str(), S_INT64, &value); else if(rsubstr(xml.section, 13) == ".uint32.value") sscanf(xml.value.c_str(), S_UINT64, &value); else if(rsubstr(xml.section, 12) == ".int32.value") sscanf(xml.value.c_str(), S_INT64, &value); else if(rsubstr(xml.section, 13) == ".uint64.value") sscanf(xml.value.c_str(), S_UINT64, &value); else if(rsubstr(xml.section, 12) == ".int64.value") sscanf(xml.value.c_str(), S_INT64, &value); else if(rsubstr(xml.section, 12) == ".float.value") sscanf(xml.value.c_str(), S_FLOAT32, (float32*) &value); else if(rsubstr(xml.section, 13) == ".double.value") sscanf(xml.value.c_str(), S_FLOAT64, (float64*) &value); else if(rsubstr(xml.section, 13) == ".resref.value") valstr = xml.value; else if(rsubstr(xml.section, 10) == ".data.file") { if(gff.writeData(n, lbl, xml.value)) return printxmlerr(xml, gff.getStrError()); } else if(rsubstr(xml.section, 7) == ".exostr") valstr = unquotestr(xml.value); break; case 1: if(getpos(validgfftags, GFFTAGS, xml.section) == -1) return printxmlerr(xml, "Invalid tag"); if(rsubstr(xml.section, 7) == ".struct") { uint32 nsct; sl.clear(); if(gff.writeStruct(nsct, "", n)) return printxmlerr(xml, gff.getStrError()); if(!assemblegffstruct(xml, gff, nsct, &sl)) return false; if(gff.writeSetLabel(n, sl)) return printxmlerr(xml, gff.getStrError()); } else if(rsubstr(xml.section, 5) == ".list") { uint32 list; std::string lbl; if(gff.writeList(list, n, "")) return printxmlerr(xml, gff.getStrError()); if(!assemblegfflist(xml, gff, list, &lbl)) return false; if(gff.writeSetLabel(n, lbl)); } else if(rsubstr(xml.section, 10) == ".exolocstr") { if(!assemblegffexolocstr(xml, gff, n)) return false; } break; case 2: if((i = getpos(validgfftags, 10, xml.value)) != -1) { if(gff.writeVar(n, (NWNVarType) i, lbl, value)) return printxmlerr(xml, gff.getStrError()); lbl = valstr = ""; value = 0; } else if(rsubstr(xml.value, 7) == ".resref") { if(gff.writeResRef(n, lbl, valstr)) return printxmlerr(xml, gff.getStrError()); lbl = valstr = ""; value = 0; } else if(rsubstr(xml.value, 7) == ".exostr") { if(gff.writeExoString(n, lbl, valstr)) return printxmlerr(xml, gff.getStrError()); lbl = valstr = ""; value = 0; } else if(rsubstr(xml.value, 7) == ".struct") return true; break; } } if(pr != -6) return printxmlerr(xml, xml.getStrError()); printxmlerr(xml, "Unexpected end of file"); return false; }